Technical Study Potential River Utilization for Improvement of Clean
Water Services in Tabanan District
I Gusti Lanang Made Parwita
1
, IGB Sila Dharma
2
, Mawiti Infantri Yekti
3
and I Gst Putu Gustave Suryantara
3
1
Department of Civil Engineering, Bali Sate Polytechnic, South Kuta, Bali, Indonesia
2
Faculty of Marine and Fisheries, Udayanan University, Bali, Indonesia
3
Department of Civil Engineering, Udayanan University, Bali, Indonesia
Keywords: River Potential, Tabanan, Clean Water.
Abstract: Tabanan Regency is one of the regencies located in the southern part of Bali Province which has limitations
in terms of developing clean water services. This problem occurs because of the limited potential that is owned
both in terms of springs, groundwater and from the potential of rivers that can be utilized. In 2021, the
population in Tabanan Regency is 462,652 people and around 70% of the local drinking water companies
(PDAM) have served them. In some remote areas that have not been handled by PDAMs, the supply of clean
water for the population is fulfilled by non-PDAM clean water or rural PAM (PAM des) with the current
service level reaching 23.87%. Population growth is one of the most important contributors to the increasing
demand for clean water in the future. Based on observations that have been made, it shows that there are still
several rivers in this area that can be used for the purpose of fulfilling clean water. However, until now there
has been no definite study that can provide information related to the inventory of potential rivers that can be
utilized. Therefore, it is very necessary to carry out an in-depth analysis of the potential of water that can be
utilized for the development of clean water services in the future. Existing problems: how many rivers are
there in Tabanan Regency, how many potential rivers can be developed in the future, how is the potential
river development system in the development of clean water services. This research is a quantitative research
using inventory method and direct flow measurement in the field to find out the actual condition of the river's
potential. This potential is associated with the need for clean water based on the projected population growth.
The results showed that there were 39 rivers in Tabanan Regency. Of the 38 rivers, there are 3 rivers that have
the potential to be developed in the future for the use of clean water downstream, namely the Yeh Hoo, Yeh
Empas and Balian rivers. If only 10% of the river's discharge can be utilized, it will be able to meet the water
needs of Tabanan Regency for current needs.
1 INTRODUCTION
Population development and the expansion of urban
areas that continue to increase in Tabanan Regency
requires an increase in the amount of water that must
be provided. The current provision of clean water is
provided by the regional drinking water company
(PDAM) Tabanan Regency with a capacity of 644.90
liters/second with a service coverage of 70%. Until
now, the main source of PDAM Tabanan comes from
groundwater through deep wells which are spread
over four service units. On the other hand, the
population that is not served by PDAM uses water
through PAM des with the current coverage reaching
23.87%. Currently, the largest community drinking
water company (PAM des in) Tabanan Regency is in
the eastern part, namely in Marga District.
The limited springs and groundwater in the area is
also followed by the limited number of rivers. River
inventory data from the Bali Penida River Basin
Council states that Tabanan Regency has 129 springs
that have been used by PAMdes and 39 rivers, both
in the Tabanan Regency area and those that cross with
other regencies. Of course, the number of rivers is
very small compared to the total number of rivers in
Bali of 391. From this limited river, there are only a
few rivers that still have discharge throughout the
year. Taking groundwater as the main source of clean
water in the long term has a negative impact on health
and environmental sustainability.
Parwita, I., Dharma, I., Yekti, M. and Suryantara, I.
Technical Study Potential River Utilization for Improvement of Clean Water Services in Tabanan District.
DOI: 10.5220/0011811400003575
In Proceedings of the 5th International Conference on Applied Science and Technology on Engineering Science (iCAST-ES 2022), pages 417-422
ISBN: 978-989-758-619-4; ISSN: 2975-8246
Copyright © 2023 by SCITEPRESS – Science and Technology Publications, Lda. Under CC license (CC BY-NC-ND 4.0)
417
The population growth continues to increase while
on the one hand the available water potential is very
limited, so it is very necessary to conduct a study
related to potential rivers that can be used as a source
of clean water. It is necessary to conduct an in-depth
study related to the position of the river and the
possibility of its development in the future. The study
from this research is expected to be able to answer:
how many rivers are there in Tabanan Regency, how
many rivers are potential that can be developed in the
future and how is the development system the potential
river in the development of clean water services.
2 METHOD
The research implementation is generally carried out
in the form of instantaneous discharge measurements
and calibration implementation. The instantaneous
discharge measurement is carried out by using the
one-point method into the water with several drains.
The determination of the number and width of the
drain is adjusted to the width of the existing channel
in the field. The density of the inter-pias point
determines the level of accuracy of the discharge
measurement, but in this study the width is satisfied
every 20 cm. Instantaneous discharge measurements
were carried out 10 times with different discharge
variations. While the calibration analysis is done by
determining the average coefficient value of each
measurement that is produced. From the 10 times the
flow coefficient, the trendline analysis was analyzed
to get the average flow coefficient value.
Surveys, Field Observations, Data Collection and
Analysis
1. Conduct a field survey to determine the condition
of the river as follows:
The survey was conducted on several rivers that
currently have potential, especially in the estuary. The
data to be searched includes:
a. River location
b. Condition of river morphological characteristics
c. The potential that exists today
2.1 Data Collection
Secondary data collection is carried out by collecting
data from related agencies such as:
a. Bali Penida River Basin Center: the data sought is
related to river administration, river length, river
watershed area. Utilization of existing
watersheds, Policies in river development in Bali
b. Tabanan Regency Public Works Agency: the data
sought is related to the pattern of river water
utilization for irrigation, clean water and flood
control systems
c. Regional drinking water company in Tabanan
Regency: searched data related to water
production and capacity, water sources,
development plans, community drinking pair data
d. Community drinking water companies in each
sub-district: the data sought is the current
production and water sources
2.2 Stages of Analysis
Stages of analysis carried out starting from the
analysis of the potential to the analysis of the
development plan. In more detail, the analysis carried
out is as follows:
2.2.1 Theoretical Analysis of River Potential
The scarcity of water resources is increasingly
becoming apparent along with the increase in
population and the reduction in green open space as a
catchment area. In the past, springs were the prima
donna of clean water sources that became a reference
for many residents to get water. Along with the
passage of time and the enormous interest in water, at
this time there are not a few remaining potential rivers
in the downstream to become an alternative in
developing raw water for clean water services (Lisa
Guppy; Kelsey Anderson; Mehta; P.; Nagabhatla; N .
and and M. 2017), (Marshall 2011), (National
Research Council 2011). Rivers are places and
containers as well as a network of water drainage
from springs to estuaries, bordered on the right and
left and along its flow by a border line. The potential
of water in rivers is associated with the amount of
water that is available and has the possibility to be
utilized. Utilization can be used for various purposes
both for irrigation, industry, clean water services and
other purposes. (Eryani 2014), (Hasbiah and
Kurniasih 2019), (Maulana 2017). After the
development of infrastructure for water utilization
through buildings such as reservoirs, dams, reservoirs
and others, this potential turns into the availability of
water or water that is ready to be utilized (Sanim
2011), (Law Number 17 of 2019 2019), (Zhao et al.
.2020). River utilization is closely related to several
factors, namely water discharge, elevation, flow and
water quality (B. Setiawan et al. 2015). Judging from
the continuity of its flow, rivers can be divided into
three groups, namely those that flow throughout the
iCAST-ES 2022 - International Conference on Applied Science and Technology on Engineering Science
418
year (pharenial), those that flow during the rainy
season (ephimeral) and those that flow when it rains
(intermittent) (Savitri and Pramono 2017).
2.2.2 Water Demand Analysis
Increased development in all aspects has an impact on
increasing water in terms of quantity and quality. In
urban areas, where most of the area has been built,
green open space is getting narrower and in general
there is a decrease in infiltration. This decrease in
infiltration has an impact on decreasing water
reserves in the soil. In several countries, clean water
services in urban areas are mostly met from services
sourced from groundwater (Deo Volentino 2013),
(Rejekiningrum 2009), (Susanto, Rusdianto, and
Sawir 2014). With limited groundwater that can be
utilized, the role of rivers becomes very large as a
source of clean water. Water needs are generally
divided into 2 groups, namely domestic water needs,
namely water needs for daily needs and non-domestic
water needs, namely outside water needs for daily
needs such as education, trade, offices, health
facilities, tourism facilities and others. other.
(Yamamoto at al 2021), (Vairavamoorthy 2007),
(Twort 2003), (Sukartini and Saleh 2016).
Domestic water demand is determined in
liters/person/day which is strongly influenced by
population, temperature and population welfare. An
increasingly dense population, higher temperatures
and better welfare have resulted in greater per capita
water needs. Likewise, non-domestic water needs are
influenced by the type of designation, such as for
tourism, the use of water in star hotels is greater than
the use of water for jasmine hotels. Likewise, the food
and beverage industry requires more water than the
clothing industry, for example (Cole 2012), (Lu 2007)
2.2.3 Analysis of Population Projection
Projection of population growth is needed to calculate
the size of the population in the future. Population
projections can be carried out using several
calculation methods, namely arithmetic, geometric
and exponential (BPS 2010).
a. Arithmetic Method
Population projections using the arithmetic method
assume that the population in the future will increase
by the same amount every year.
b. Geometric Method
Population projection using the geometric method
uses the assumption that the population will increase
geometrically using the compound interest
calculation basis. The rate of population growth (rate
of growth) is considered the same for each year. The
following formula is used in the geometric method.
c. Exponential Method
This method takes into account the faster population
growth which is growing exponentially.
2.2.4 Potential Analysis
Determination of river potential can be done by
empirical analysis through the transfer of rain that
falls on a watershed and through direct discharge
measurements through instantaneous discharge
measurements (Indra 2012), (Bawantu 2018), (Ri.
Setiawan and Purwanto 2018).
3 RESULTS AND DISCUSSION
3.1 Drinking Water Fulfilment System
in Tabanan Regency
In addition to providing drinking water from regional
drinking water companies in Tabanan district, there is
also a rural drinking water supply system in 9 (nine)
sub-districts, including Kerambitan sub-district,
Tabanan sub-district, Penebel sub-district, Selemadeg
sub-district, West Selemadeg sub-district, East
Selemadeg sub-district, Marga sub-district, Baturiti
and Pupuan sub-districts. Total services from
community drinking water companies are able to
serve as many as 75,343 reaching 23.87%.
Services for regional drinking water companies in
Tabanan Regency:
1) Tabanan Regency PDAM Production System
The general description of the existing clean
water supply system of PDAM Tabanan Regency
is as follows:
2) Tabanan City Unit and Kediri District
For city services in Tabanan District, the raw
water sources used are Gembrong Springs,
Gangsang Springs, and Beji Riang Gede Springs.
The distribution system for the cities of Tabanan
and Kediri is still largely one unit. The raw water
sources for the service of the city of Kediri sub-
district are from the Dedari Spring, Beji Nyambu
Spring, Yeh Nu Drilling Well, and IPA Nyanyi.
The production capacity of drinking water for
services in the cities of Tabanan and Kediri is
currently very limited and the development of the
distribution network is highly dependent on the
Technical Study Potential River Utilization for Improvement of Clean Water Services in Tabanan District
419
utilization of available resource capacity. The
available source capacity is 1,973.30 lt/sec, the
installed capacity is 455.3 lt/sec. From the
installed capacity, it is only able to produce a
production capacity of 362.79 lt/sec. From that
production capacity, it is only able to serve 28,988
house connections (SR).
3) Selemadeg Unit
The service areas of the Selemadeg Unit include
Bajera Village, Wanagiri Village, Belimbing
Village, Lalanglinggah Village, Pupuan
Subdistrict City Installation (IKK), and Mundeh.
The distribution system at the Selemadeg unit
utilizes the nearest water source to the service
area. The springs used by MA Kikihan, IPA
Antap, MA Makori, MA Pangkung Kidang, MA
Arca I and II, IPA Lalanglinggah, MA Beji
Pujungan, MA Yeh Hae, and MA Beji Dukuh.
The available source capacity is 315.51 lt/sec,
installed capacity is 70.80 lt/sec. From the
installed capacity, it is only able to produce a
production capacity of 52.92 lt/sec. From that
production capacity, it is only able to serve 5,454
House Connections (SR).
4) Ambition Unit
Service areas in the Kerambitan unit include
Batuaji Village, Tanguntiti Village, Megati
Village, Gadungan Village, Gunung Salak
Village, IKK Kerambitan. The raw water sources
used in this system are MA Beji Panes, IPA
Telaga Tunjung, IPA Selemadeg, MA Kelepud
Gadungan, MA Tista Gn Salak, MA Riang Gede
plus Tibu Ranjang, and MA Kerotok. The
available source capacity is 290.00 lt/sec, the
installed capacity is 122.40 lt/sec. From the
installed capacity, it is only able to produce a
production capacity of 107.74 lt/sec. From that
production capacity, it is only able to serve 10,750
House Connections (SR)
5) Defender Unit
The service areas included in the Penebel unit are
IKK Penebel, IKK Marga, Penatahan Village, and
Apuan Village. The raw water sources for IKK
Penebel and Penatahan Village come from springs
Gembrong, MA Katos, MA Gangsang, and MA
Pangangian. As for IKK Marga services, they
come from Gangsang Springs, Dedari, and Apuan
Villages with Pangangian springs. The available
source capacity is 185.00 lt/sec, installed capacity
is 51.50 lt/sec. From the installed capacity, it is
only able to produce a production capacity of
48.24 lt/sec. From that production capacity, it is
only able to serve 4,661 house connections (SR).
6) Baturiti Unit
Service areas in this Baturiti unit include East
Perean Village, Luwus Village, Candi Kuning
Village, Baturiti Village, Perean Village and
Mekar Sari Village. The springs used are Lake
Beratan (Candi Kuning), Lake Baratan (Baturiti),
MA Tasakan, MA Kacagan 1 and 2, MA
Kerobokan, and MA Beji Temacun. The available
source capacity is 118 lt/sec, the installed capacity
is 100 lt/sec. From the installed capacity, it is only
able to produce a production capacity of 73.21
lt/sec. From that production capacity, it is only
able to serve 6,156 house connections (SR).
3.2 Potential Rivers in Tabanan
Regency
Most of the rivers in Tabanan Regency come from
Lake Beratan which is at the top. Overall, the number
of rivers in the province of Bali is 392 watersheds as
shown in Table 5.15. Based on this number, there are
39 rivers in Tabanaan Regency or part of its territory
in other regencies.
The criteria for potential rivers are more
emphasized on the water discharge that is still in the
estuary during the dry season. The existing debit can
at least be a source for the development of raw water
services by PDAM Tabanan. Based on observations,
observations and direct observations in the field, 3
rivers have the potential to be used for their water
downstream, namely:
1. Yeh Empas River
2. Yeh Ho . River
3. Balian River
1. Yeh Empas River
Yeh Empas River has a river length of 107.53 Km2
and the length of the main river is 32.84 Km. This
river empties into the Yeh Gangga beach. From the
results of the measurement of the instantaneous
discharge, it was obtained that it was 6.15 m3/sec.
2. Yeh Hoo River
Yeh Hoo River has a river length of 172.94 Km2 and
the length of the main river is 45.15 Km. This river
empties into the Kedungu beach. From the results of
the measurement of the instantaneous discharge
obtained at 0.95 m3/sec.
iCAST-ES 2022 - International Conference on Applied Science and Technology on Engineering Science
420
3. Balian River
The Balian River has a river length of 155.02 Km2
and the length of the main river is 30.12 Km. This
river empties into the west coast of Tabanan City.
From the results of the measurement of the
instantaneous discharge obtained at 0.95 m3/sec.
After measuring the instantaneous discharge, the
river's discharge was 8.02 m3/sec.
3.3 Population Condition of Tabanan
Regency
Tabanan Regency as a district with an agricultural
area supported by water sources from Lake Buyan,
Lake Tamblingan and Danu Beratan is an area in Bali
Province with considerable agricultural potential, in
addition to this area as a tourist attraction including
Bedugul tourism objects, Tanah Lot etc. Tabanan
Regency has a population of 445,700 people in 2019
and based on the projected population in 2031 the
total population of Tabanan Regency is 478,919
people. The percentage of the total population in Bali
Province in 2019 was 10.272%, in 2031 it was
9.657%, by only occupying an area of 14.891%
(839.330 km2) of the total land in Bali Province
(Central Statistics Agency, 2020). In terms of
quantity, the current population growth rate of
Tabanan Regency is 0.59%. Tabanan Regency with a
population density in 2019 was 531 people/km2, and
in 2031 it was 571 people/km2.
Table 1: Recapitulation of Tabanan Regency's Total Clean
Water Needs in 2020, 2025, 2030, 2035, and 2040.
Tabanan Regency has experienced a shortage of
clean water since 2020, and the shortage is getting
bigger with the assumption that the existing
production capacity of clean water will remain until
2040. Clean water production in Tabanan Regency
reaches 644.9 liters/second 2020. If the potential of
the Yeh Empas river, Only 10% of the Balian and Yeh
Hoo rivers can be utilized, so the amount is 1,524
m3/sec, which is bigger than the projected water
demand in 2040.
4 CONCLUSION
Based on the results of the analysis that has been
carried out, it can be concluded several things as
follows:
1. Based on the results of data analysis in Tabanan
Regency, there are 38 watersheds and there are
only 3 potential watersheds to be developed,
namely Yeh Empas river, Yeh Ho River and
Balian river
2. Based on the measurement of the instantaneous
discharge, the potential magnitude of each river is
obtained as follows: Yeh Empas 6.15 liters/sec,
Yeh Ho 0.95 liters/second and Balian 8.02
liters/second
3. The design of the potential river development
emphasizes the addition of raw water for PDAMs
to reduce dependence on raw water sources from
groundwater.
ACKNOWLEDGMENT
Thank you to all those who have helped carry out this
research.
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